The XCV800-5BG560I is a powerful field-programmable gate array (FPGA) from Xilinx’s Virtex-E series, designed to deliver exceptional performance for demanding digital signal processing and high-speed communication applications. This advanced FPGA combines substantial logic capacity with high-speed I/O capabilities, making it an ideal choice for complex embedded systems and telecommunications infrastructure.
Product Specifications
The XCV800-5BG560I features robust specifications that make it suitable for high-performance applications:
Core Architecture:
- Logic cells: 800,000 system gates
- CLB array: 64 x 96 configurable logic blocks
- Block RAM: 512 Kbits total
- Speed grade: -5 (high performance)
- Package type: BG560 (Ball Grid Array, 560 pins)
- Temperature grade: Industrial (-40ยฐC to +100ยฐC)
I/O and Connectivity:
- User I/O pins: Up to 404 available
- Differential I/O pairs supported
- Multiple I/O standards compatibility
- High-speed serial transceivers integrated
- Clock management with dedicated resources
Processing Capabilities:
- Distributed RAM capability
- Dedicated multipliers for DSP applications
- Fast carry logic for arithmetic operations
- Flexible routing architecture for optimal performance
Price Information
Pricing for the XCV800-5BG560I varies based on quantity, supplier, and current market conditions. Contact authorized Xilinx distributors for current pricing and availability. Volume discounts are typically available for production quantities. The XCV800-5BG560I represents excellent value considering its high gate count and industrial temperature rating, making it cost-effective for demanding applications requiring reliable operation across extended temperature ranges.
Documents & Media
Essential documentation and resources for the XCV800-5BG560I include:
Technical Documentation:
- Virtex-E series datasheet with complete electrical specifications
- XCV800-5BG560I pinout diagrams and package drawings
- Configuration user guide and programming specifications
- Power consumption analysis and thermal management guidelines
Design Resources:
- FPGA Editor software tools compatibility information
- Timing analysis reports and constraint files
- Reference designs and application notes
- PCB layout guidelines for BG560 package
Software Support:
- ISE Design Suite compatibility charts
- Device-specific libraries and IP cores
- Simulation models for various EDA tools
Related Resources
The XCV800-5BG560I integrates seamlessly with Xilinx’s comprehensive ecosystem:
Development Tools:
- Xilinx ISE Design Suite for synthesis and implementation
- ChipScope Pro analyzer for real-time debugging
- EDK (Embedded Development Kit) for processor integration
- ModelSim simulation environment support
Compatible Products:
- Other Virtex-E series FPGAs for scalable designs
- Xilinx configuration PROMs and memory solutions
- Development boards and evaluation platforms
- Third-party IP cores and reference designs
Support Resources:
- Xilinx Answer Database with technical solutions
- Community forums and user groups
- Application engineering support
- Training materials and webinars
Environmental & Export Classifications
The XCV800-5BG560I meets stringent environmental and regulatory standards:
Environmental Compliance:
- RoHS compliant (lead-free manufacturing)
- Industrial temperature grade operation (-40ยฐC to +100ยฐC)
- Moisture sensitivity level classification
- JEDEC standards compliance
Quality Standards:
- ISO 9001 certified manufacturing
- Automotive qualification available (contact factory)
- Long-term availability commitment
- Comprehensive quality testing procedures
Export Classifications:
- ECCN (Export Control Classification Number) compliance
- International trade regulation adherence
- Country-specific import/export documentation
- Proper marking and labeling for global distribution
The XCV800-5BG560I represents a mature, reliable FPGA solution backed by Xilinx’s extensive support infrastructure and proven track record in mission-critical applications. Its combination of high performance, industrial reliability, and comprehensive development tools makes it an excellent choice for advanced digital systems requiring substantial processing capability and long-term availability.
